Interaction of Ca2+ and Fe3+ in co-precipitation process induced by Virgibacillus dokdonensis and its application

•Ca2+ inhibited CA activity while Fe3+ promoted CA activity slightly.•Fe3+ and Ca2+ increase contents of protein and humic acids in EPS.•Fe3+ inhibited Ca2+ precipitation while Ca2+ promoted Fe3+ precipitation.•Fe3+ ion precipitation ratio reached 94% and concentration decreased to 3.5 mg/L.•Immobil...

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Veröffentlicht in:Journal of environmental sciences (China) 2025-01, Vol.147, p.131-152
Hauptverfasser: Yan, Huaxiao, Liu, Yuping, Zhang, Haojuan, Jin, Shengping, Han, Zuozhen, Woo, Jusun, Tucker, Maurice E., Meng, Long, Chi, Xiangqun, Han, Chao, Zhao, Yanyang, Zhao, Yueming, Zhao, Hui
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Sprache:eng
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Zusammenfassung:•Ca2+ inhibited CA activity while Fe3+ promoted CA activity slightly.•Fe3+ and Ca2+ increase contents of protein and humic acids in EPS.•Fe3+ inhibited Ca2+ precipitation while Ca2+ promoted Fe3+ precipitation.•Fe3+ ion precipitation ratio reached 94% and concentration decreased to 3.5 mg/L.•Immobilized bacteria is not as good as free bacteria in Ca2+ removal. Biomineralization has garnered significant attention in the field of wastewater treatment due to its notable cost reduction compared to conventional methods. The reinjection water from oilfields containing an exceedingly high concentration of calcium and ferric ions will pose a major hazard in production. However, the utilization of biomineralization for precipitating these ions has been scarcely investigated due to limited tolerance among halophiles towards such extreme conditions. In this study, free and immobilized halophiles Virgibacillus dokdonensis were used to precipitate these ions and the effects were compared, at the same time, biomineralization mechanisms and mineral characteristics were further explored. The results show that bacterial concentration and carbonic anhydrase activity were higher when additionally adding ferric ion based on calcium ion; the content of protein, polysaccharides, deoxyribonucleic acid and humic substances in the extracellular polymers also increased compared to control. Calcium ions were biomineralized into calcite and vaterite with multiple morphology. Due to iron doping, the crystallinity and thermal stability of calcium carbonate decreased, the content of OC = O, NC = O and CO-PO3 increased, the stable carbon isotope values became much more negative, and β-sheet in minerals disappeared. Higher calcium concentrations facilitated ferric ion precipitation, while ferric ions hindered calcium precipitation. The immobilized bacteria performed better in ferric ion removal, with a precipitation ratio exceeding 90%. Free bacteria performed better in calcium removal, and the precipitation ratio reached a maximum of 56%. This research maybe provides some reference for the co-removal of calcium and ferric ions from the oilfield wastewater. [Display omitted]
ISSN:1001-0742
DOI:10.1016/j.jes.2023.10.014